• 【于燕飞韩丽丽】边缘检测代码


    im=imread('C:\Documents and Settings\Administrator\桌面\2.jpg');

    Subplot(231);imshow(im);title('原始图像');

    ii=rgb2gray(im); %ii=im2double(ii);

    Subplot(232);imshow(ii);title('灰度图像');

    hsv=rgb2hsv(im);

    h=hsv(:,:,1); s=hsv(:,:,2); v=hsv(:,:,3);

    %figure;imshow(h);title('h');

    %figure;imshow(s);%title('s');

    Subplot(233);imshow(v);title('强度v');

     

    v=imnoise(v,'salt & pepper',0.1);

    Subplot(234),imshow(v);title('椒盐噪声');

    v=~im2bw(v,0.75); %转为二值图像并取反

    Subplot(235),imshow(v);title('二值取反');

     

    %图像增强

    [h,w]=size(v);

    n=3;  

    f=double(v);

    a=ones(n,n);

    y=f;

     for i=1:h-n+1

         for j=1:w-n+1

             a=f(i:i+(n-1),j:j+(n-1));

             s=sum(sum(a));

             y(i+(n-1)/2,j+(n-1)/2)=s/(n*n);

         end

     end

    Subplot(236),imshow(v);title('二值取反并增强');

     

    figure;

    v = edge(v,'canny',0.9);

    Subplot(231),imshow(v);title('canny');

    v = edge(v,'sobel');

    Subplot(232),imshow(v);title('sobel');

    v = edge(v,'prewitt');

    Subplot(233),imshow(v);title('prewitt');

    v = edge(v,'log');

    Subplot(234),imshow(v);title('log');

    v = edge(v,'roberts');

    Subplot(235),imshow(v);title('roberts');

    v=bwfill(v,'holes');%填充内部空洞

    Subplot(236),imshow(v);title('holes');

     

     


    close all;clear;clc;
    im=imread('C:\Documents and Settings\Administrator\桌面\2.jpg');
    subplot(121);imshow(im);title('原始图像');
    ii=rgb2gray(im);subplot(122);imshow(ii);title('灰度图像');

    hsv=rgb2hsv(im);
    h=hsv(:,:,1);
    s=hsv(:,:,2);
    v=hsv(:,:,3);
    figure;
    subplot(221);
    imshow(h);title('色调h');
    subplot(222);imshow(s);title('饱和度s');
    subplot(223);imshow(v);title('强度v');

    figure;
    subplot(121);imshow(s);title('饱和度s');
    subplot(122);imhist(s);title('直方图');

    %开操作
    se=strel('square',3);%使用5*5的结构元素对图像进行运算
    open1=imopen(s,se);
    close1=imclose(open1,se);

    figure;
    imshow(close1);title('开-闭1');

    %孔洞填充
    bw0=im2bw(close1);
    figure;
    subplot(221);imshow(bw0);title('bw0');
    bw1=im2bw(bw0);
    subplot(222);imshow(bw1);title('bw1');
    bw2=im2bw(bw1);
    subplot(223);imshow(bw2);title('bw2');
    bw3=im2bw(bw2);
    subplot(224);imshow(bw3);title('bw3');
    bw4=im2double(bw3);

    edi1 = edge(bw3, 'roberts');
    edi2 = edge(bw3, 'sobel');
    edi3 = edge(bw3, 'prewitt');
    edi4 = edge(bw3, 'canny');%自动阀值选择法对图像进行canny算子检测,轮廓提取
    figure;
    subplot(221);imshow(edi1);title('roberts算子检测后的图像');
    subplot(222);imshow(edi2);title('sobel算子检测后的图像');
    subplot(223);imshow(edi3);title('prewitt算子检测后的图像');
    subplot(224);imshow(edi4);title('canny算子检测后的图像');

    %边缘检测
    SFST=edge(bw3,'sobel');
    figure,imshow(SFST),title('Sobel滤波器(水平和垂直)');
    figure;
    s45=[-2 -1 0;-1 0 1; 0 1,2];
    SFST45=imfilter(bw3,s45,'replicate');
    subplot(221);imshow(SFST45),title('Sobel滤波器(45度)');
    sm45=[0 1 2;-1 0 1;-2 -1 0];
    SFSTM45=imfilter(bw3,sm45,'replicate');
    subplot(222);imshow(SFSTM45),title('Sobel滤波器(-45度)');

    ed01=or(SFST,SFST45);
    subplot(223);imshow(ed01);title('SFST,SFST45融合');
    ed02=or(ed01,SFSTM45);
    subplot(224);imshow(ed02);title('ed01,SFSTM45');

    s0=[-1 -2 -1;0 0 0;1 2 1];
    s1=[-2 -1 0;-1 0 1;0 1 2];
    s2=[-1 0 1;-2 0 2;-1 0 1];
    s3=[0 1 2;-1 0 1;-2 -1 0];
    s4=[0 1 2;-1 0 1;-2 -1 0];
    s5=[0 1 2;-1 0 1;-2 -1 0];
    s6=[1 0 -1;2 0 -2;1 0 -1];
    s7=[0 -1 -2;1 0 -1;2 1 0];

    figure;
    a0=conv2(bw4,s0);subplot(221);imshow(a0);title('a0');
    a1=conv2(bw4,s1);subplot(222);imshow(a1);title('a1');
    a2=conv2(bw4,s2);subplot(223);imshow(a2);title('a2');
    a3=conv2(bw4,s3);subplot(224);imshow(a3);title('a3');
    figure;
    a4=conv2(bw4,s4);subplot(221);imshow(a4);title('a4');
    a5=conv2(bw4,s5);subplot(222);imshow(a5);title('a5');
    a6=conv2(bw4,s6);subplot(223);imshow(a6);title('a6');
    a7=conv2(bw4,s7);subplot(224);imshow(a7);title('a7');

    %边缘融合
    figure;
    a01=or(a0,a1);subplot(221);imshow(a01);title('a0与a1融合');
    a23=or(a2,a3);subplot(222);imshow(a23);title('a2与a3融合');
    a45=or(a4,a5);subplot(223);imshow(a45);title('a4与a5融合');
    a67=or(a6,a7);subplot(224);imshow(a67);title('a6与a7融合');
    figure;
    b0=or(a01,a23);subplot(221);imshow(b0);title('a01与a23融合');
    b1=or(a45,a67);subplot(222);imshow(b1);title('a45与a67融合');
    b01=or(b0,b1);subplot(223);imshow(b01);title('b0与b1融合');

    [row col] = size(bw3);
    count = 0;
    arr = zeros(row*col,1);
    visit= zeros(size(bw3));

    % 调用计算连通域函数进行数PM2.5颗粒和计算PM2.5颗粒的面积
    for i = 1:row
    for j = 1:col
    if bw3(i,j)&&visit(i,j) == 0%寻找到白点
    count = count +1;%计数加一 ,给白色像素赋值为颗粒的标号
    p = [i; j]; %记住该点
    [c ,domain] = finddomain(bw3, p);%调用函数返回domain连通域内有c个像素(面积)
    arr(count) = c;%将各个颗粒的面积存入arr数组中
    for m = 1:c
    visit(domain(1,m), domain(2, m)) = 1;%标记已入队的白色像素的8连通域内的像素点已访问
    end
    end
    end
    end
    disp('显微图像中颗粒的总数为:');
    disp(count);
    %disp('显微图像中颗粒的面积(像素)为:');
    %disp(arr(1:count));
    pi=3.1415926;
    l=0;
    arry=zeros(500,1);
    arrys=zeros(500,1);
    for k=1:count
    r=sqrt(arr(k)/pi);
    r=2*r;
    r=r/3.015;
    if r<=2.5
    l=l+1;
    arry(l)=r;
    arrys(l)=arr(k);
    end
    end
    disp('大气PM2.5颗粒数目为:');
    disp(l);
    %disp('大气PM2.5颗粒粒径为:');
    %disp(arry(1:l));
    %disp('大气PM2.5颗粒大小为:');
    %disp(arrys(1:l));

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  • 原文地址:https://www.cnblogs.com/qxql2016/p/3870379.html
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